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A petrogenetic model for the igneous complex in the Spanish Peaks region, Colorado

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Abstract

Twenty representative rocks ranging from lamprophyric to granitic composition, from the Spanish Peaks igneous Complex, south-central Colorado, were analyzed for Sr isotopic compositions and their concentrations of K, Rb, Sr and Ba. The various igneous rocks from this Cenozoic complex do not have a comagmatic relationship from the evidence of their Sr isotopic compositions. Due to the generally low Sr87/Sr86 isotopic ratios, the possibility of the highly radiogenic underlying Precambrian basement as the source of magma generation can be ruled out. The sources for the magmas of this igneous complex must be in the upper mantle or the lower crust. Model calculations using elemental distribution coefficients and assumed mantle materials suggest that the abundant lamprophyric magmas in this region could be derived from a phlogopite-bearing hornblende peridotite by a small degree of partial melting (<5%) at lower pressure environment (<50 km). Other possibilities for lamprophyric magma generation were also examined. The slightly higher Sr87/Sr86 ratios observed in the granitic rocks are interpreted as reflecting the nature of this source-the lower crust. Alternatively, they may suggest a limited contamination of the original liquid by upper crustal material. For the entire igneous complex, mixing of two independent magmas, lymprophyric and granitic, is suggested to be the mechanism responsible for the complicated and diverse chemical characteristics.

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  1. Bor-ming Jahn

    Present address: TN7, NASA-Johnson Space Center, 77058, Houston, Texas, USA

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  1. Department of Geology and Geophysics, University of Minnesota, 55455, Minneapolis, Minnesota

    Bor-ming Jahn

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Jahn, Bm. A petrogenetic model for the igneous complex in the Spanish Peaks region, Colorado. Contr. Mineral. and Petrol. 41, 241–258 (1973). https://doi.org/10.1007/BF00371034

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  • DOI: https://doi.org/10.1007/BF00371034

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